RU2529861C1 - System of sensors monitoring equipment layout in telecommunication rack - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: the rack rail is equipped with a system of sensors. A flat sensor for equipment layout monitoring is placed between openings in the rail intended for fixation of the equipment. Thickness of the sensor allows its installation without need to dismantle the mounted equipment.

EFFECT: reducing dimensions in combination with improvement in operational reliability of the sensors without need to install auxiliary components to the equipment.

9 cl, 2 dwg

Description

FIELD OF THE INVENTION

The present invention relates to communication technology and can be used to control the placement of equipment in a telecommunication rack.

State of the art

Patent RU 82342 describes the closest system of sensors for monitoring the placement of equipment in a telecommunication rack to the closest present invention. In this system, equipment placement sensors are located along the rail of the telecommunication rack, correlated with a certain height of the rack in the drain, which change their state when a piece of equipment is installed in the rack. The mentioned patent provides various options for the design of sensors, but they either do not have compactness, like a mechanical switch with a long button, or do not provide the necessary reliability of operation, such as an optocoupler, or require additional elements such as a magnet or RFID tag to be activated on the equipment.

The listed design flaws of the sensors either make it difficult to place additional equipment in the rack (cable organizers, power distributors), or generate a false equipment placement card, or do not respond to unauthorized placement of equipment in the rack.

SUMMARY OF THE INVENTION

Thus, the present invention is the development of such a system of sensors for monitoring the placement of equipment in a telecommunication rack, which provides minimum dimensions in combination with the reliable operation of the sensors without installing additional elements on the equipment.

To achieve the specified technical result, a system of sensors for controlling the placement of equipment in a telecommunication rack is proposed, comprising a rack with a rail for mounting equipment; at least one equipment placement sensor associated with a rail section that changes state when a piece of equipment is installed on said rail section; at least one hardware-software complex that processes sensor signals; characterized in that at least a portion of the sensor is located on the rail between the holes in the rail, which are designed to install threaded connectors used to attach the equipment to the rail; the said part of the sensor after installing the equipment on the rail section is located between the installed equipment and the rail.

In order to be able to install the sensor without dismantling the equipment in the rack, the mentioned part of the sensor may be able to move relative to the rail and the equipment installed on the rail section with the threaded connectors tightened, which serve to fasten the equipment to the rail.

The mentioned part of the sensor can be either a printed circuit board with a capacitive sensing element, or a flat permanent magnet, or a film electromechanical switch.

In addition, the sensor portion may include an element that prevents deformation of the sensor during installation of the equipment and after installation of the equipment in the rack.

To simplify the installation of additional attachments, at least 80% of the points on the front of the system may be located at a distance of no more than 2 mm or 3 mm from the front of the rail.

And finally, the system of the present invention may have at least one indicator light associated with a unit or slot of said rack.

Brief Description of the Drawings

Figure 1 shows an embodiment of a system of the present invention with capacitive sensors.

Figure 2 shows a specialized nut for mounting equipment in a rack.

DETAILED DESCRIPTION OF THE INVENTION

A first embodiment of a sensor system for monitoring the placement of equipment in a telecommunication rack of the present invention is shown in FIG. The mounting rail 1 of the telecommunication rack is made with rectangular holes for fixing the equipment 2. By the telecommunication rack is meant a cabinet or an open frame of the standard 19 inches, which are used to install telecommunication equipment. Rail 1 is equipped with a system of sensors controlling the placement of equipment 3. It can be a printed circuit board with electronic components that transmit signals from sensors to a hardware-software complex (not shown), which can store changes in the state of sensors in a database. In this embodiment, the sensing element of the system sensor is the capacitive element on the printed circuit board 4. It is two copper pads on the front side of the printed circuit board (the front side means the plane of the rack closest to the user who places or removes the equipment from the rack). Copper pads during production are coated with non-conductive varnish (mask). The pads form a capacitor. If metal equipment is installed in the rack, the capacitance of the capacitor will change. If this capacitor is included in the electric pulse generator on an operational amplifier, the frequency of the generator will depend on the presence of installed equipment in this slot or unit rack. Thus, you can track the fact of installing the equipment. The printed circuit board can be the same for all electronic components of the sensor group of the system. If the board is made 0.5 mm thick, then the sensitive element 4 will not even touch the installed equipment. To attach the equipment to the rack using special nuts (cage nut), the sample is presented in Figure 2. The nuts are square in shape and encased in a spring steel shell 0.5 mm thick. The protrusions of the spring steel 5 hold the nut in the square hole 2 and protrude above the front surface of the rail. Thus, even if the fastening screws (bolts) that hold the equipment to the rail are fully tightened, the protrusions of spring steel will not allow the equipment body to come into contact with rail 1, leaving a gap in which the sensor element 4 is placed. In this case, element 4 is not exposed deformation and is able to move when the screws are tightened relative to the rail and equipment. This means that the sensor system can be mounted on a rail without dismantling the equipment.

Using miniature surface-mounted components (SMD components) in the sensor system, it is possible to achieve that the height greater than the part of the housing 3 of the sensor system from the surface of the rail 1 will not exceed 2 mm. With the thickness of the part of the equipment enclosure that usually covers the rail, which is usually more than 1.5 mm, it turns out that the sensor system will not interfere with the placement of additional equipment (cable organizers, power distributors) on the surface of the equipment enclosure, even if the additional equipment covers the sensor system. But you can put ordinary metal washers under the additional equipment, then the sensor system can protrude above the rail at a distance of up to 3 mm, without interfering with the installation of additional equipment.

The sensor can be arranged differently. Between the holes of the rail, you can place a permanent magnet with a thickness of 0.5 mm with a magnetization perpendicular to the surface of the rail. If you place a Hall sensor or reed switch (including MEMS reed switch) next to it, you get a magnetic sensor. Such a sensor will be triggered due to the fact that the body of the installed equipment will "lock" part of the magnetic field onto itself, changing the magnetic field near the reed switch or Hall sensor.

In yet another embodiment of the present invention, the sensor may be an electromechanical button made by film technology. When installed, the equipment case will close the contacts of the button, dramatically changing its electrical resistance.

To prevent accidental damage to the sensor on one or more sides, it can be surrounded by a steel frame that will protect it from deformation.

For ease of use, each slot or unit of the rack can be equipped with LED or tube visual indicators.

Claims (14)

1. A sensor system for monitoring the placement of equipment in a telecommunication rack, comprising:
- rack with rail for mounting equipment;
- at least one equipment placement sensor correlated with a portion of said rail that changes state when a piece of equipment is installed on said rail section;
- at least one hardware-software complex that processes the signals of said sensor;
characterized in that:
- at least a portion of said sensor is placed on said rail between the openings in said rail, which are intended for mounting threaded connectors used to fasten equipment to said rail;
- said part of the sensor after installing the equipment on said portion of the rail is located between the installed equipment and said rail. 2. The system according to claim 1, characterized in that said part of the sensor is capable of moving relative to said rail and equipment installed on said rail section with threaded threaded connectors used to fasten equipment to said rail. 3. The system according to claim 1, characterized in that the said part of the sensor is a printed circuit board with a capacitive sensor element. 4. The system according to claim 1, characterized in that the said part of the sensor is a permanent magnet. 5. The system according to claim 1, characterized in that the said part of the sensor is a film electromechanical switch. 6. The system according to claim 1, characterized in that the said part of the sensor contains an element that prevents deformation of the said sensor during installation of the equipment and after installation of the equipment. 7. The system according to claim 1, characterized in that at least 80% of the points on the front surface of the system are at a distance of not more than 2 mm from the front surface of said rail. 8. The system according to claim 1, characterized in that at least 80% of the points on the front surface of the system are at a distance of not more than 3 mm from the front surface of the said rail. 9. The system according to claim 1, characterized in that it has at least one indicator light associated with a unit or slot of said rack. 5. The system according to claim 1, characterized in that the said part of the sensor is a film electromechanical switch. 6. The system according to claim 1, characterized in that the said part of the sensor contains an element that prevents deformation of the said sensor during installation of the equipment and after installation of the equipment. 7. The system according to claim 1, characterized in that at least 80% of the points on the front surface of the system are at a distance of not more than 2 mm from the front surface of said rail. 8. The system according to claim 1, characterized in that at least 80% of the points on the front surface of the system are at a distance of not more than 3 mm from the front surface of the said rail. 9. The system according to claim 1, characterized in that it has at least one indicator light associated with a unit or slot of said rack.

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